Automated process control system of regional substations retrofit

A.R. Mirgaleeva; K.H. Gilfanov

doi:10.1051/e3sconf/201912405038

All issues

Volume 124 (2019)

E3S Web Conf., 124 (2019) 05038

References

Open Access

Issue		E3S Web Conf. Volume 124, 2019 International Scientific and Technical Conference Smart Energy Systems 2019 (SES-2019)


Article Number		05038
Number of page(s)		4
Section		Additional papers
DOI		https://doi.org/10.1051/e3sconf/201912405038
Published online		10 February 2020

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[1] Modern power engineering // Energokonsul. URL: http://www.energocon.com/pages/id1176.html (reference date: 6.03.2019). [Google Scholar]

[2] Electrical system. URL: https://beeindia.gov.in/sites/default/files/3Ch1.pdf (reference date: 20.05.2019). [Google Scholar]

[3] The use of heat power oil transformers for heat supply. URL: https://www.geoteplo.com.ua/company/85-portfolio/77-tn-na-podstancii.html (reference date: 6.03.2019). [Google Scholar]

[4] Energy efficient substation // URL: http://www.ntcpower.ru/field_of_activity/energoeffektivnost/cente r_for_energy_efficiency.php (reference date: 6.03.2019). [Google Scholar]

[5] S.V. Gridin, A.F. Petrenko, The efficiency of the methods of disposal of waste heat from the cooling systems of power transformers, Power Saving. Energy. Energy Audit, 7, 11–18 (2013) [Google Scholar]

[6] Zi-Jie Chien, Hung-Pin Cho, Ching-Song Jwo, SihLi Chen, Yi-Lun Lin, A Study of Waste-Heat Recovery Unit for Power Transformer, Advanced Materials Research Vols, 875-877, 1661-1665 (2014) Online: 2014-02-27 © (2014) Trans Tech Publications, Switzerland. doi:10.4028/www.scientific.net/AMR.875-877.1661. [Google Scholar]

[7] M. Salari, P. Bayrasy, K. Wolf, Thermal analysis of a three phase transformer with coupled simulation // URL:https://www.researchgate.net/publication/276 057920 17.09.2018 (reference date: 6.03.2019). [Google Scholar]

[8] V.E. Vorotnitsky, Heat recovery systems of transformers and autotransformers 220-750 KB / / energy of a single network, Ed. Science and technology. The centre of FGC UES (Moscow), 6, 32–42 (2014) [Google Scholar]

[9] Using ANSYS Workbench technology to generate finite element grids // URL: https://sapr.ru/article/6779 (reference date: 30.05.2019). [Google Scholar]

[10] ANSYS Maxwell. URL: https://www.ansys.com/products/electronics/ansys-maxwell (reference date: 30.05.2019). [Google Scholar]

[11] A. Nagdewate, T. Paunikar, Computation of single phase distribution transformer faults by finite element method, Journal of Electrical and Electronics Engineering, 2278-1676, 2320-3331, 13-19 URL: http://www.iosrjournals.org/iosr-jeee/Papers/NCEERA/volume-2/EE02314.pdf?id=7590 (reference date: 30.05.2019). [Google Scholar]

[12] Modeling of heat transfer processes by means of ANSYS // URL finite element analysis package: http://lib.knigi-x.ru/23raznoe/126936-1.php17.09.2018 (reference date 6.03.2009). [Google Scholar]

[13] N. Schmidt, S. Tenbohlen, S. Chen, C. Breuer. Numerical and experimental investigation of temperature distribution inside oil-cooled transformer windings https://www.ieh.uni-stuttgart.de/dokumente/publikationen/2013_Schmid t_Numerical_and_Experimental_Investigation_of_t he_Temperature.pdf (reference date: 30.05.2019). [Google Scholar]

[14] G.V. Kuznetsov, E.V. Kravchenko, A new approach to numerical analysis of reliability indices in electronics, EPJ Web Conf., 82 (2015), DOI: 10.1051/epjconf/20158201029 http://earchive.tpu.ru/bitstream/11683/15371/1/mat ecconf_tsotr_20152301021.pdf (reference date: 30.05.2019). [Google Scholar]

[15] R. Vilaithong, S. Tenbohlen, T. Stirl, Improved Topoil Temperature Model for Unsteady-State Conditions of Power Transformers, Proceedings of the XlVth International Symposium on High Voltage Engineering, Tsinghua University, Beijing, China, August 25–29 (2005) https://pdfs.semanticscholar.org/b72d/c718a3f7997 56ab6401363e7b39806e7272e.pdf (reference date: 30.05.2019). [Google Scholar]